The Effects of Ti Addition and High Cu/Sn Ratio on Tube Type (\hbox, \hbox)\hbox Strands, and a New Type of Strand Designed to Reduce Unreacted Nb Ratio

In this paper, we report the properties of two tube type Ta doped Nb 3 Sn strands: one strand was additionally Ti doped by way of a Sn-Ti alloy core, and the other had high Cu/Sn ratio within the filaments. Higher irreversibility field (Birr) was obtained on the quaternary strand with respect to the...

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Bibliographic Details
Published in:IEEE transactions on applied superconductivity 2014-06, Vol.24 (3), p.1-4
Main Authors: Xingchen Xu, Collings, Edward, Sumption, Michael, Kovacs, Chris, Xuan Peng
Format: Article
Language:English
Subjects:
Electron tubes
hbox{Nb}_{3}\hbox{Sn}
Heat treatment
Irreversibility field
layer J_{c}
Magnetization
Niobium-tin
tube type
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Summary:In this paper, we report the properties of two tube type Ta doped Nb 3 Sn strands: one strand was additionally Ti doped by way of a Sn-Ti alloy core, and the other had high Cu/Sn ratio within the filaments. Higher irreversibility field (Birr) was obtained on the quaternary strand with respect to the (Nb-7.5 wt.%Ta) 3 Sn strand. High Cu/Sn ratio decreased the amount of coarse grain formation, but also degraded the layer J c of the tube type strand by depressing the Sn content in the fine grain (FG) layer. A new type of strand, the subelement of which is composed of seven bare Cu-Sn cored Nb tube filaments, was designed with the aim to reduce the unreacted Nb area fractions. The test results of the first experimental strand are reported. The unreacted Nb ratio is reduced relative to normal tube type strands and the FG area fraction is improved. The unique structure of this strand makes it also possible to improve the stoichiometry of FG and reduce the effective diameter (deff) .
ISSN:1051-8223
1558-2515
DOI:10.1109/TASC.2013.2291159